Fitting assemblies

What is claimed is: 1. A fitting assembly comprising: a first fitting configured to receive a first fluid tube, the first fitting defining a first groove and having a distal end that terminates at a distal-facing surface that defines a first sealing face; a second fitting configured to receive a second fluid tube, the second fitting comprising: a proximal-facing surface that defines a second sealing face; and a spring configured to engage the first groove to connect the first and second fittings such that the first and second fluid tubes are placed in fluid communication and a fluid tight seal is established between the first and second fittings where the first sealing face abuts the second sealing face. 2. The fitting assembly of claim 1 , wherein the first sealing face of the first fitting defines a recess, and the second sealing face of the second fitting defines a protrusion, and wherein the protrusion is sized to fit within the recess such that the first sealing face abuts against the second sealing face to form the fluid tight seal when the first and second fittings are connected. 3. The fitting assembly of claim 1 , wherein the first sealing face of the first fitting defines a recess, and the second sealing face of the second fitting defines a protrusion, and wherein the recess and the protrusion have an interference fit to form the fluid tight seal when the first and second fittings are connected. 4. The fitting assembly of claim 1 , wherein the second fitting comprises a fitting body defining a cylindrical bore, and wherein the first fitting comprises a tubular body configured to be at least partially inserted into the cylindrical bore to establish a connection between the first and second fittings. 5. The fitting assembly of claim 4 , wherein the spring is disposed within the cylindrical bore. 6. The fitting assembly of claim 4 , wherein the fitting body defines a second groove within the cylindrical bore, and wherein the spring is disposed within the second groove. 7. The fitting assembly of claim 1 , wherein the spring is a garter spring. 8. The fitting assembly of claim 1 , wherein the fluid tight seal is fluid tight at least up to 2500 pounds per square inch (PSI). 9. The fitting assembly of claim 1 , wherein the first fitting comprises a tubular body defining a central passage for receiving the first fluid tube. 10. The fitting assembly of claim 9 , wherein the tubular body includes a beveled annular surface within the central passage, and wherein the first fitting comprises a ferrule configured to engage the beveled annular surface and to receive and retain the first fluid tube. 11. The fitting assembly of claim 10 , wherein the tubular body includes an internally threaded region within the central passage, and wherein the first fitting comprises a compression screw configured to threadingly engage the internally threaded region to retain the ferrule within the central passage. 12. The fitting assembly of claim 11 , wherein the compression screw comprises an internal passage configured to receive the first fluid tube. 13. The fitting assembly of claim 9 , wherein the tubular body comprises a first fitting end having knurled outer surface, and a second fitting end defining a tapered tip, and wherein the second fitting end defines the first groove. 14. The fitting assembly of claim 9 , wherein the first groove extends annularly about the tubular body. 15. The fitting assembly of claim 1 , wherein the second fitting comprises: an insert defining a central passage for receiving the second fluid tube; and a fitting body defining a bore configured to receive the insert. 16. The fitting assembly of claim 15 , wherein the bore includes a latching portion for receiving the first fitting, and an insert portion for receiving the insert. 17. The fitting assembly of claim 16 , wherein the fitting body defines a second groove within the latching portion of the bore, and wherein the spring is disposed within the second groove. 18. The fitting assembly of claim 15 , wherein the insert includes a beveled annular surface within the central passage, and wherein the second fitting comprises a ferrule configured to engage the beveled annular surface and to receive and retain the second fluid tube. 19. The fitting assembly of claim 18 , wherein the insert includes an internally threaded region within the central passage, and wherein the second fitting comprises a compression screw configured to threadingly engage the internally threaded region to retain the ferrule within the central passage. 20. The fitting assembly of claim 19 , wherein the compression screw comprises an internal passage configured to receive the second fluid tube. 21. A chromatography system comprising the fitting assembly of claim 1 . 22. The chromatography system of claim 21 , comprising: a chromatography column; and a detector for measuring physical or chemical properties of fluid received from the chromatography column, wherein the fitting assembly is disposed between the chromatography column and the detector for establishing a fluidic connection therebetween. 23. The chromatography system of claim 21 , comprising a chromatography column; and a pump for conveying fluid toward the chromatography column, wherein the fitting assembly is disposed between the chromatography column and the pump for establishing a fluidic connection therebetween. 24. The fitting assembly of claim 2 , wherein the protrusion has a frustoconical shape and is sized to fit within a beveled annular shape of the recess.